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A lot of countermeasures have been developed in order to reduce interior noise. For example, improvements of rubber mount characteristics and other measures have been implemented. Recently electromagnetic active engine mounts based on a hydraulic engine mount have been developed. They are significantly effective for the reduction of the booming noise which is unpleasant for passengers. Although the LMS algorithm has been generally used for the active control, it has been used only for reducing booming noise. The authors developed a new control method in order to reduce not only the booming noise but also the noise and the vibration over wide frequency band for comfortable vehicle interior space. The authors studied the method which determines the feedback gain according to various conditions by modifying LMS algorithm. In this modified LMS algorithm, only an error signal was used as an input signal.

To date conventional active engine mounts have been applied to diesel passenger cars and recreational vehicles to reduce idle vibration. However, they have not been used with truck engines. This is because the active engine mounts required for the larger engines occupy a significantly larger space than a conventional engine mount in order to support the heavier loads. Consequently it is necessary to develop an advanced active engine mount which satisfies the requirements for not only durability but also size. The authors have developed a new type of active engine mount system based around the use of the bellows, a voice coil motor and an accumulator. The final design has been shown to reduce the transmitted forces significantly while it has a relatively small electrical power consumption.

This paper has clarified the noise generating mechanism on the BOSCH AD type fuel injection pump by using numerical and experimental analysis methods. The calculated vibration of each part has been verified to coincide well with the measured acceleration data. Based on the detailed analysis, the major noise source of the injection pump was found to originate from the tappet vibration caused by the steep pressure drop at the end of injection. After performing some parameter studies by using the simulation model, it turned out that some specifications of the injection pump influenced its sound power.